of VIII-th Conference

• V.Volpert (Université Lyon 1, Laboratoire Poncelet, Moscow). Reaction-diffusion waves in biological applications.
  
• A.Meyerhans (Universitat Pompeu Fabra, Barselona). Regulation and manipulation of virus infection fates
  
• G.Bocharov (INM, Moscow). Systems approach to immunology
  
• S.Simakov (MIPT, INM, Moscow). Numerical modeling of blood flow: applications to predictive endovascular surgery
  
• T.Gamilov (MIPT, Moscow). Computational simulations of the results of carotid stenosis treatment based on patient-specific data
  
• A.Golov (MIPT, Moscow). Multiscale CT-based computational modeling of obstructive pulmonary diseases
  
• A.Khe, V.Liapidevskii, A.Chesnokov (Institute of Hydrodynamics, Novosibirsk). Mathematical model of a fluid flow in collapsible tubes
  
• A.Svitenkov, P.Zun, O.Rekin (ITMO University, St. Petersburg). Parameters of boundary conditions for detailed 1D arterial blood flow model
  
• T.Dobroserdova (INM, MIPT, Moscow). Coupling of 1D and 3D blood flow models
• T.Galochkina (Université Lyon 1).
  Existence, stability and speed of the traveling wave solutions in the mathematical model of blood coagulation
  
• A.Bouchnita (Université Lyon 1). Clot growth regimes for blood coagulation in blood flow
  
• A.Lobanov, A.Andreeva, A.Nikolaev (MIPT, Moscow). Pointwise mathematical model of fibrin polymerization
• M. Marion (Ecole Centrale de Lyon). Pulses and waves for reaction-diffusion systems
  
• A.Lozovskiy (INM, Moscow). The unconditionally stable semi-implicit ALE finite element scheme for fluid-structure interaction
  
• I.Konshin, Yu.Vassilevski (INM, Moscow), M.Olshanskii (University of Houston). . Iterative solution of Oseen linear systems and applications to coronary blood flows
  
• A.Chernyshenko (INM, Moscow), M.Olshanskii (University of Houston). Numerical methods for biomedical problems posed on surfaces and bulk-surface coupled problems
  
• A.Aksenov, A.Schelyaev (Tesis, Moscow). The Living Heart Project
• A.Danilov (INM, MIPT, Moscow). Numerical techniques for bioimpedance and ECG modelling
  
• V.Zverev (Ural Federal Univ.), S.Pravdin, L.Katsnelson, O.Solovyova (Institute of Immunology and Physiology, Ural Federal Univ., Ekaterinburg) Modeling of miocard mechanical function: from tissue model to organ model
  
• S.Fedotov (University of Manchester). Non-Markovian models of intracellular transport
  
• K.Novikov (Moscow State University). The role of spatial traits of microtubule network in endosomal trafficking
  
• J.Clairambault (Université Paris 6). Drug resistance in cancer: an evolutionary perspective on cancer, with applications to anticancer drug resistance modelling and perspectives in therapeutic control
  
• C.Pouchol (Université Paris 6). Phenotype-structured equations: asymptotic analysis and optimal control
  

• D.Onishchenko (M&S Decisions, Moscow), J. Dunyak, N. Al-Huniti (AstraZeneca, Boston, US). Dynamic predictions of overall survival in non-small cell lung cancer using tumor sizes: a longitudinal joint modeling approach
  
• A.Stephanou (Université de Grenoble). A hybrid multiscale computational framework to personalize and optimize cancer therapy
  
• A.Kolobov, M.Kuznetsov (Lebedev Physical Institute, Moscow). Influence of interstitial fluid dynamics on growth and therapy of angiogenic tumor
  
• M.Kuznetsov, A.Kolobov (Lebedev Physical Institute, Moscow). Mathematical modeling of angiogenic tumor growth with account of oxygen and glucose balance in tissue
  
• V.Voronova (M&S Decisions, Moscow). Modelling of GLP-1 and its analogues effect on food digestion in gastro-intestinal tract
  
• T.Yakovleva (M&S Decisions, Moscow). A systems pharmacology model of SGLT2 and SGLT1 inhibition to understand mechanism and quantification of urinary glucose excretion after treatment with dapagliflozin, canagliflozin and empagliflozin
  
• V.Maryakhina (Orenburg State Univ.). Numerical simulation of the delayed fluorescence kinetics of xanthene dyes in alive mammalian cells
  
• A. Bratus (Moscow State University), Y.Semenov (Moscow Univ. of Railway Engineering), A.Novozhilov (North Dakota State University). Error threshold in eigen’s quasispecies model evolution of macromolecules
  
• A.Zhmurov, K.Minin, V.Barsegov (MIPT, Moscow), N.Zhmurova (Ryazan State Univ.). Study of nanomechanics of α-supercoils by molecular modeling methods.
  
• A.Dokuchaev, E.Shikhaleva, T.Sulman, L.Katsnelson (Institute of Immunology and Physiology, Ekaterinburg). Mathematical modeling of contractile and regulatory proteins cooperation in myocard mechanocalcium feedback.
  
• A.Cherevko (Institute of Hydrodynamics, Novosibirsk). MRI methods of cerebral vasculature reconstruction on the example of small laboratory animals.
  
• K.Beklemysheva, A.Vasyukov, A.Kazakov (MIPT, Moscow). Numerical modeling of transcranial ultrasound.
  
• E.Kislukhina (Institute of Emergency, Moscow). Interpretation and processing of laser-doppler flowgrams.
  
• A.Yurova (Moscow State Univ.). Analysis of texture features of CT-images in abdomen organs segmentation .
  
• R.Pryamonosov (INM, Moscow). Patient-oriented graph network reconstruction of coronary arteries.
  
• I.Gaynova (Institute of Mathematics, Novosibirsk). Development of optimal treatment strategies for HIV infection by mathematical methods.
  
• A.Mozokhina, S.Mukhin (Moscow State Univ.). Modeling of lymph flow in the whole net of lymphatic vessels.
  
• D.Grebennikov (MIPT, Moscow). Modelling the structure and functioning of the reticular network in lymph node.
  
• R.Tretyakova (Moscow State Univ.). Modelling the lymph flow through the conduit network of lymph node.
  
• K.Shilnikov, N.Kudryashov (Moscow Engineering Physics Institute). Mathematical modeling of cryogenic processes in biotissues and optimization of the cryosurgery operations.
  
• D.Sarancha (Computing Center RAS, Moscow). On adequateness of mathematical models (ecological example).
  
• V.Razzhevaikin (Computing Center RAS, Moscow). Instability in biological society models and extended Gause’s principle.
  
• N.Pertsev (Institute of Mathematics, Omsk). Correctness of mathematical models of the alive systems described by delay differential equations.
  
• V.Leonenko, S.Ivanov (ITMO University, St. Petersburg). The problems of influenza peak forecasting in Russian cities by means of SEIR models.
  
• S.Rudnev (INM, Moscow). Health centers: possibilities for epidemiological monitoring and data quality control .
  
• O.Starunova (Health Institute, Moscow). Information computing technology for analysis of preventive screening data in health centers.
  
• A.Yanchenko (Institute of Hydrodynamics, Novosibirsk). Mathematical modeling of hemodynamics based on hyperbolic thermodynamically consystent systems of conservation laws.
  
• E.Bord (Novosibirsk State Univ.), A.Cherevko (Institute of Hydrodynamics, Novosibirsk). Nyquist diagram bifurcations for generalized Van der Pol Duffing equation describing local cerebral hemodynamics
  
• T.Gologush (Novosibirsk State Univ.), V.Ostapenko (Institute of Hydrodynamics, Novosibirsk), I.Petrenko (Vladimir State Univ.). Modeling and optimization the process of embolization on the bazis of two-phase filtration model.
  
• V.Kislukhin (Medisonic, Moscow). Marcovian chain as explanation of actively circulating bulk of blood.
  
• Y.Naing So (MIPT, Moscow). Computational model of two-phase transport of transmembrane peptides by blood flow.